Curious to hear what integration you are working on.
I am thinking about making this (1) into an integration also. It is an alternative way to visualize forecasts. It uses the dew point instead of temperature. I currently use a dashboard that shows the site on an iframe within Home Assistant.
> Just don't rely on centralized for-profit entities, rely on stuff produced by non-profits and foundations, that you know isn't gonna screw you over as soon as they need money
What do you use that fits that philosophy and offers the basic functionality (NAT traversal, Magic DNS, failover relaying) TS provides?
I'm writing a minimal, educational WireGuard implementation to practice networking and cryptography: https://github.com/drio/miniwg. It's still in heavy development, but it's been a great learning experience. I've already been able to create tunnels between two miniwg instances and between miniwg and Jason's WireGuard from the Linux kernel.
Before that I wrote: https://github.com/drio/unboxing, a c/webassembly implementation of Danielle Navarro's beautiful IFS fractals.
For those using WireGuard directly: What techniques do you use to establish connections when behind network infrastructure that blocks all UDP traffic?
Unfortunately I cant find the pics of the build at the moment. It's a stock SGI 550 case so nothing special done to the case. I replaced the PIII Dual Xeon board with an Asus Threadripper board w/ 1920x CPU, 32GB ECC RAM, Radeon Pro W5700, 1TB NVMe, 10Gb NIC. Daily driver running Void Linux Musl.
The mod to the PSU was needed because the IEC inlet was practically at the edge of the PSU housing which is partly obstructed by the edge of the SGI case. I could have modded the case by cutting the steel but I didn't want to cut up a unique case when the PSU is easier to replace. So I opened the supply, unscrewed the IEC inlet, de-soldered the leads from the inlet to the board then soldered in a length of 18 AWG cord. I covered the IEC inlet with a piece of 16 gauge (~1.2mm) aluminum with a 16mm hole for a cable gland and two screw holes for mounting with machine screws and nuts. The cord is secured by a metal cable gland and terminates to an in-line IEC socket. NOTE: I did replace the X and Y caps across the factory inlet with new ones I soldered to the PSU board with the cord.
For the past few weeks, I've been annotating all the references I could find in the legendary Unix magic poster: https://unixmagic.net.
I'm happy to reach this first milestone, but I'm already envisioning future iterations. My goal is to transform this into a proper celebration of Unix – a system whose elegant simplicity and powerful design principles continue to inspire me. There's something deeply satisfying about connecting with this foundational piece of computing history.
Contributions are always welcome.
Special shout-out to @abetusk for all the support and enthusiasm with the project.
I just wanted to express my support for KOReader—it’s a fantastic piece of software. I use it on my Kobo, and the UI is noticeably faster than the device’s default system. It also offers a wealth of customization options. This may not be an issue on newer e-readers, but the ability to highlight seamlessly across adjacent pages is truly liberating.
On a little technical side, the cross-platform engine of KOReader is developed in Lua and low level stuff like drawing and eInk specifics is different for every device. I think this separation might be very noticable for anyone running it on Android, almost no standard UI elements, dialogs, etc. But that's what makes this project so widespread device wise I think
I am thinking about making this (1) into an integration also. It is an alternative way to visualize forecasts. It uses the dew point instead of temperature. I currently use a dashboard that shows the site on an iframe within Home Assistant.
1. https://observablehq.com/@drio/shader-galaxy
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